DE1561999B1 - Method and device for filling containers with finely divided powdery material - Google Patents

Description

ι 2

The invention is based on a known Ver of the vacuum in the container during part of the

drive to fill containers with finely divided filling cycle.

powdery material, with a lower pressure in the container and the filling material in the direction of the portion consists of a piston that moves with the way is supplied, whereby 5 control valve is in connection with the introduction and the latter in each filling portion increases the dependence on the pressure medium flow Pressure enters the container (USA patent specification moves the valves.

2,815,621). The method according to the invention has the advantage

To carry out the process according to the invention, the powdery material is used within driving a device with a filling material container due to the slow increase in the volume

Feeding device, a filling head, a flange kuums, which during the latter part of the cycle

seal on the latter, which takes place on a container, is very well compressed, and that through

and there is a tight connection between the filling head.

and container forms, wherein the Füllgutzuführein- borrowed calming phases a faster filling

the direction of the filling head is switched off by a valve.

is bar, and also with out of the container. On the basis of the drawing is an example

leading valve-controlled vacuum lines and embodiment of the present invention

a vacuum pump for evacuating air.

used by these lines from the container, Fig. 1 shows schematically the inventive

as is known as such (U.S. Patent 20 Device;

2,815,621). F i g. Figure 2 is a cross-section through the filling head and

When carrying out the known method, the container;

it often happens that the in the suction lines Fig. 3 is a section along the line 3-3 of

Attached sieves by collecting fine pul- Fig. 2;

clog verigem material. A known solution 25 Fig. 4 shows schematically the vacuum pump and

This problem consists in changing the direction of flow the valve to adjust the flow rate from the container.

the air flow through the screen during the filling process;

periodically reverse, but this has the disadvantage. Fig. 5 shows in a diagram the pressure changes

has that the container as a result of the required wrestling in a container during its filling.

Cleaning process on the sieve by the air stream 30 according to FIG. 1 is a filling head 2 at the opening

can only be filled relatively slowly (USA.-Pa- a container 4 is attached, which is between the filling

publication 2 815 621). head 2 and a movable plate 6 clamped

Another known device solves the pro-is. A funnel 8 on the filling head body 10 is used

blem of the clogging of the sieve by the fact that two systems for receiving finely divided material, which in

consisting of vacuum line, sieve and one to 35 the container 4 is to be filled.

Atmosphere leading line, are provided. The filling head body 10 has a flange seal

By alternately sucking through air 12, which together with the opening of the container 4

what has accumulated thereon acts through the respective sieve and a seal between the latter acts

powdery material removed. This Füllverfah- and the body 10 forms. The finely divided material

However, ren has the disadvantage that the entire filling 40 flows out of the funnel 8 through a central one

The process takes a relatively long time and that the filled passage 14 of the filling head body 10 in the container

Material is not particularly well compacted because the ter 4. In this passage 14 there is a valve

Container when filling is not constantly under vacuum til 16 to regulate the flow of material from the

stands. Funnel 8. The valve 16 has an elastic sleeve

The object of the present invention consists in 45 18 inflated by compressed air with it

therefore in a method as well as a device it expands and closes the passage 14,

of the type mentioned at the outset, with which In the lower surface of the filling head body 10 are

it is possible to accelerate the filling process, around the passage 14 around arcuate recess

without clogging of the sieves in front of the vacuum openings 20, which are caused by being in the body 10.

lines entry. 50 solid filters 22 are covered. The recesses

According to the invention, this object is thereby achieved with the outside of the body 10 in FIG

triggers that the negative pressure in the container from the end of the same arranged channels 24 connected, which

a selectable portion filling section to the usual by means of threaded connecting pieces 28

is regulated that it is connected in such a lower Ge pipes 26, as in the

speed increases to the predetermined value, 55 F i g. 1, 2 and 3 shown schematically. Another

that the contents are not carried away. Channel 30 in body 10 leads to the inflatable valve

The device according to the invention is characterized by 16 air entering through line 32;

characterized in that an adjusting member is simultaneously with the latter on the channel 30 by a conventional, on

the completion of the feeding of predetermined components attached to the outside of the body 10

Filler portions also connected to the 60 connection piece 34 in the vacuum line,

ordered valve in the sense of a temporary transverse As can be seen from Fig. 1, the compressed air

Cut reduction controls. is fed to the line 32 by means of a pump 34 '

A particularly useful embodiment and the air flow through this line 32 with HiMe

is that a pair of valves in parallel two-one valve 70 is regulated. A vacuum pump 38

gene of a control circuit and a throttle valve 65 is connected to the line 26 and the device

be provided in one of these branches, the speed of the flowing through this line

the setting device is the valves in different time - air or the amount of air passing through

operated at intervals and thus regulated a slower increase by a valve 40. Of course,

3 4

NEN the pumps 34 'and 38 by a single are three-way valves, which in one position the depump be replaced, leaving the line 26 with soft to allow air out of the valve when the suction side and the line 32 with the pressure side to the actuator 44 through the other valve air to the same connected. The valve 40 is adjustable. In this way the unequal causes bar and is operated by a control unit 42. 5 pressure in the actuator causes the piston 62 to move

According to FIG. 4, the control unit 42 points in the desired direction.

member 44 and a device 46 for flow The adjusting member 68 is intended to the valve regulation on. The valve 40 has an inlet 40 after a desired number of shots channel 48 and an outlet channel 50, which close by. This is done by opening the valve the line 26 each with the filling head 2 or the io 74 to supply air to the actuator 44 and that Vacuum pump 38 are connected. A valve seat 52 allows air to escape from line 64 through the is provided in a partition 54, which enable the one-valve 72. Advantageously, will let and the outlet channel separates from each other. On the valve 40 closed at the same time as that Valve body 56 is seated at the end of a valve stem 58, valve 16 is opened by actuation of valve 70 is blown in a bearing 60 such that it can move back and forth. To change the speed is arranged. The opposite end of the valve of the vacuum generation in the container 4 is a secondary shaft 58 is line 76 provided with a piston 62 of the actuator. The latter has a throttle 44 in connection. The position of the valve body 56 valve 78, which is used to regulate the flow velocity of the seat 52 regulates the speed of the passage through the line 64 into the space 44 air flowing out of the container 4. 20 incoming air is set. The current of

The control device 46 feeds air or an incoming air through the secondary line 76 is through a Ma-

Their medium to the actuator 44 to the position solenoid valve 80 is regulated. The adjusting member 68 opens

of the piston 62 and must be able to open the valve 80 immediately after the piston

the valve body 56 has been displaced during the initial part 62 to close the valve 40

of the filling process to a fully open position at 25.

move. While the piston 62 keeps the body 56 in the pressure conditions in the container 4 during the open position, the valve 16 is graphically represented by its filling according to the invention in FIG. When each "shot" in the diagram is filled with air and emptied again, the valve 70 is open to allow the supply valve 16 to flow into the container and inflate 30 accordingly. The valve 72 is open in order to then generate a vacuum again. After a pre-member 44 air is supplied, and the valve 74 sucks in a certain number of "shots", the inlet closes the air from the line 66. The valve 80 is in the direction 46 of the valve 52, 56 to the flow closures and the The throttle valve 78 is set so that the speed or the flow rate through the valve 40 is reduced by the desired movement of the valve body 56 and thus the speed is generated. At the beginning of the first shot, the speed with which the vacuum in the Behäl- valve 70 is closed by the setting member to ter 4 is reduced. The vacuum is maintained for a certain period of time in the container to open the feed valve 16 and the flow of powdery material from the funnel 8 into the before the feed valve is opened again. Then to admit container 4. Since the inside of the valve body is now moved to the completely open position 40 by the funnel 8 with the external pressure, the valve body is in contact with the outside pressure during the next shot, the vacuum in the container decreases at a higher flow rate through the valve when the material in the latter occurs. To be achieved at point B 40. the curve is the supply valve 16 by means of the

Fig. 4 shows a suitable device for control valve 70 closed. The vacuum valve 40 remains open tion of the supply valve 16 and the vacuum 45 after closing the valve 16 and the valve 40; Of course, other vacuum rises rapidly to point C on the curve. Systems for controlling these valves on the above. This completes the first shot; the ways described can be used. The one more shot device 46, similar to this first shot, has lines 64 and 66 which you will see.

Pump 34 'to opposite sides of the column 50 At point C the supply valve 16 will connect through ben 62. The line 32, which opens the inflation closing of the valve 70 again and the ble valve 16 supplies air, is also with the vacuum valve 40 remains open. The material flows connected to pump 34 '. An adjusting member 68 controls from the funnel into the container, as in the first, the air flow to the actuator 44 and to the valve 16. Shot. At the point on the curve marked with D , the element 68 is an electrical control element. The supply valve 16 is activated by opening the valve which switches the relay valve 70 and the vacuum valve 40 by closing at set time intervals. The relays in this organ are connected to the motion of the body 56 against the valve seat 52 by solenoid valves in order to close the flow. This is done with the aid of the adjusting member through lines 64 and 66 and line 32 68, which opens valve 74 and regulates valve 72. ⁶ ° brings the position in which there is air from the line 64

A solenoid valve 70 is sucked through the adjuster. The pressure difference causes a shift

68 actuates and opens or closes the valve 16 of the piston 62 towards the valve seat 52 until the valve

at predetermined time intervals. A solenoid valve 40 is closed.

72 in line 64 controls the flow to an immediately after this valve is closed

On the side of the piston towards the valve body from 65, the valve 72 is adjusted with the aid of the adjusting element 68

Take off seat 52; another solenoid valve 74 is closed and the valve 74 is closed to the outside

the line 66 controls the flow to the other opens. The valve 80 is also through the valve 78

Side of the piston 62 out. The valves 72 and 74, if brought into communication with the outside air, to

to lift the body 56 from the valve seat 52 at such a low speed that the powdery material in the container is prevented from rising to the filters 22. The increase in the vacuum in the container continues until the valve 40 is completely open, approximately at point E of the curve in FIG. 5. Since the penetration of air into the container 4 is approximately constant when the supply valve 16 is closed, the vacuum in the container remains also about constant. The time span during which the vacuum remains constant, ie the distance between points E and F, is determined by the setting element 68. At points the next shot begins.

According to the invention, the change in vacuum from 254 to 610 mm Hg for a container with 191 capacity 5 to 10 seconds, with a container from 2081 up to 50 seconds.

Claims (4)

Patent claims: 1. Method of filling containers with finely divided powdery material, in which case in the container a negative pressure is maintained and the filling material is supplied in portions, whereby the pressure in the container increases when each portion of the product is introduced, characterized in that the negative pressure in the container from the end of a selectable Portionseinfüllabschnittes on is controlled so that it is in such a slower speed increases to the predetermined value so that the product is not carried away. 2. Device for performing the method according to claim 1 with a filling material feed device, a filling head, a flange seal on the latter, which rests on a container and a tight connection between Forms filling head and container, the filling material supply device from the filling head through a valve can be switched off and also with valve-controlled vacuum lines leading out of the container and a vacuum pump for drawing air through these lines from the container, characterized in that an adjusting member (68) is carried out simultaneously with the completion of the feeding of predetermined product portions also that arranged in the vacuum line (26) Valve (40) controls in the sense of a temporary reduction in cross section. 3. Apparatus according to claim 2, characterized by a pair of valves (72, 80) in parallel Branches of a control circuit and a throttle valve (78) in one of these branches, the Adjusting element (68) actuates the valves (72, 80) at different time intervals and so one causes a slower increase in vacuum in the container during part of the fill cycle. 4. Apparatus according to claim 3, characterized by a piston (62) connected to the control valve (40) is in connection and the latter as a function of the pressure medium flow through the valves (72,74, 80) moves. 1 sheet of drawings